BigBoreRT

CT scanner and simulator designed for radiation oncology and therapy

Big Bore RT is designed as a CT simulator to enhance clinical confidence, accelerate time to treat and maximize value of its investment without compromising on patient experience – four dimensions that are essential towards excellent care.

4D CT with bellows and amplitude binning, include in the pulmonary tool kit for Oncology, helps improve accuracy in treatment planning and therapy delivery, even in irregular breathers.

Advance user comfort and proficiency during interventional procedures

Advance user comfort and proficiency during interventional procedures

The interventional controls designed for the Big Bore RT offers user flexibility, workflow efficiency and automatic position transcribing. With accurate and fine incremental movements of the table available at the click of a button, to quickly and clearly visualize the needle tip during interventional procedures, clinicians can focus on what matters most, the patient.

The Power of Two

The Power of Two

Philips provides two leading technologies that can improve image quality. iDose4* improves image quality* through artifact prevention and increased spatial resolution at low dose. O-MAR reduces artifacts caused by large orthopedic implants. Together they product high image quality with reduced artifacts.

Focus on the patient…workflow powered by iPatient

Focus on the patient…workflow powered by iPatient

iPatient provides patient-centered imaging – including imaging for simulation and treatment planning – providing consistent image quality from scan to scan. iPatient features a simple user interface to manage image quality, dose, and speed of acquisition. Drive confidence and consistency with dedicated exam cards for oncology as well as diagnostic CT procedures.

* In clinical practice, the use of IMR may reduce CT patient dose depending on the clinical task, patient size, anatomical location, and clinical practice. A consultation with a radiologist and a physicist should be made to determine the appropriate dose to obtain diagnostic image quality for the particular clinical task. Lower image noise, improved spatial resolution, improved low-contrast detectability, and/or dose reduction, were tested using reference body protocols. All metrics were tested on phantoms. Dose reduction assessments were performed using 0.8 mm slices, and tested on the MITA CT IQ Phantom (CCT183, The Phantom Laboratory), using human observers. Data on file.

** Image noise as defined by IEC standard 61223-3-5. Image noise was assessed using reference body protocol, on a phantom. Data on file